Sabine Voelkel scite author profile

The use of hand-held Mini-ECMO systems enables for the first time the rapid onset of extracorporeal life support independent from the patient's current location. However, success is extremely time- and team dependent. Highly skilled interdisciplinary patient management is essential to let minimised-ECMO become a new and highly effective bridge to recovery in out-of-centre cardiogenic shock patients.

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Early experiences with miniaturized extracorporeal life-support in the catheterization laboratory

Arlt

Philipp

Voelkel

et al. 2012

European Journal of Cardio-Thoracic Surgery

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Miniaturized ECMO systems can be safe and highly effective in restoring circulation and gas exchange in patients with cardiocirculatory failure in the cath-lab. Additionally, the PCI and TAVI procedures can be finished successfully on ECMO, otherwise the patients can be bridged to cardiac surgery. Especially for patients in need of cardiac surgery, patient transfer to extracorporeal assistance can be more easily processed.

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First experiences with a new miniaturised life support system for mobile percutaneous cardiopulmonary bypass

et al. 2008

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Out-of-hospital extracorporeal life support for cardiac arrest—A case report

et al. 2011

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Emergency Use of Extracorporeal Membrane Oxygenation in Cardiopulmonary Failure

Arlt

Philipp²,

Zimmermann

et al. 2009

Artificial Organs

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Severe pulmonary and cardiopulmonary failure resistant to critical care treatment leads to hypoxemia and hypoxia-dependent organ failure. New treatment options for cardiopulmonary failure are necessary even for patients in outlying medical facilities. If these patients are in need of specialized center treatment, additional emergency medical service has to be carried out quick and safely. We describe our experiences with a pumpless extracorporeal lung assist (PECLA/iLA) for out-of-center emergency treatment of hypercapnic respiratory failure and the use of a newly developed hand-held extracorporeal membrane oxygenation (ECMO) system in cardiac, pulmonary, and cardiopulmonary failure (EMERGENCY-LIFE Support System, ELS System, MAQUET Cardiopulmonary AG, Hechingen, Germany). Between March 2000 and April 2009, we used the PECLA System (n = 20) and the ELS System (n = 33) in adult patients. Cannulation was employed using percutaneous vessel access. The new hand-held ELS System consists of a centrifugal pump and a membrane oxygenator, both mounted on a special holder system for storing on a standard patient gurney for air or ground ambulance transfer. Bedside cannulation processes were uneventful. The PECLA System resulted in sufficient CO(2) removal. In all ECMO patients, oxygen delivery and systemic blood flow could be restored and vasopressor support was markedly down. Hospital survival rate in the PECLA group was 50%, and 61% in the ECMO group. Out-of-center emergency treatment of hypercapnic pulmonary failure with pumpless extracorporeal gas exchange and treatment of cardiac, pulmonary, and cardiopulmonary failure with this new hand-held ECMO device is safe and highlyeffective. Patient outcome in cardiopulmonary organ failure could be improved.

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A novel miniaturised extracorporeal circulation system for emergency percutaneous cardiopulmonary bypass in acute heart failure

Arlt

Philipp

Voelkel

et al. 2008

Heart, Lung and Circulation

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Sabine Voelkel

Extracorporeal membrane oxygenation in severe trauma patients with bleeding shock

Hand-held minimised extracorporeal membrane oxygenation: a new bridge to recovery in patients with out-of-centre cardiogenic shock☆☆☆

Early experiences with miniaturized extracorporeal life-support in the catheterization laboratory

First experiences with a new miniaturised life support system for mobile percutaneous cardiopulmonary bypass

Out-of-hospital extracorporeal life support for cardiac arrest—A case report

Emergency Use of Extracorporeal Membrane Oxygenation in Cardiopulmonary Failure

A novel miniaturised extracorporeal circulation system for emergency percutaneous cardiopulmonary bypass in acute heart failure

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